Regulation of the nuclear genes encoding the cytoplasmic and mitochondrial leucyl-tRNA synthetases of Neurospora crassa.

Abstract

We show that the nuclear genes for the cytoplasmic and mitochondrial leucyl-tRNA synthetase (LeuRS) of Neurospora crassa are distinct in their encoded proteins, codon usage, mRNA levels, and regulation. The 4.2-kilobase-pair region representing the structural gene for cytoplasmic LeuRS and flanking regions has been sequenced. The positions of the 5' and 3' ends of mRNA and of a single 62-base-pair intron have been mapped. The methionine-initiated open reading frame encoded a protein of 1,123 amino acids and displayed a strong codon bias. Although cytoplasmic LeuRS shares with mitochondrial LeuRS some general features common to most aminoacyl-tRNA synthetases, there is little amino acid sequence similarity between them, mRNA levels for cytoplasmic LeuRS were much higher than those for mitochondrial LeuRS. This observation and the strong codon bias in the cytoplasmic LeuRS gene may contribute to a greater abundance of cytoplasmic LeuRS than mitochondrial LeuRS. The genes for cytoplasmic and mitochondrial LeuRS are regulated independently. The cytoplasmic LeuRS gene is regulated by the cross-pathway control system in N. crassa, which is analogous to general amino acid control in Saccharomyces cerevisiae. The cytoplasmic LeuRS mRNA levels are induced by amino acid starvation resulting from the addition of aminotriazole. Part of this increase is due to utilization of new transcription start sites. In contrast, the mitochondrial LeuRS gene is not induced by amino acid limitation. However, the mitochondrial LeuRS mRNA levels did increase dramatically upon inhibition of mitochondrial protein synthesis by chloramphenicol or ethidium bromide or in the temperature-sensitive strain leu-5 carrying a mutation in the mitochondrial LeuRS structural gene.